Induction Sorting System makes use of the principle of electric induction to separate metals. Induction sensor mounted inside the waste conveyor belt detects the location of metals moving on the belt, and transmits the information to the computer mounted on the sorting system. The transmitted data of metals are checked for compliance with the conditions of metals defined by the user on the computer, and compressed air is blown to separate the metals to the desired outlet. In general, metals with larger surface area, lighter weight and higher conductivity are well separated. The automatic garbage sorter is capable of separating metal up to 95% depending on the composition of the materials and guarantees a stable separation during long-term operations. Induction Sorting System is installed on MFR, MBT, WEEE and ELV to play an important role separating metals from wastes.
The quality and value of garbage are improving as people's economies flourish. The fine sorting of recycled garbage used to typically be done by hand in the past, which took a great deal of manual effort. Hengchuang waste management machine manufacturer has now created an intelligent sorting system to accomplish this difficult and hazardous operation in place of a lot of physical labor.
To accomplish completely automated control and sorting, the intelligent sorting system uses sorting robots, light sorters, etc.
An induction sorting system operates by generating electromagnetic fields and analyzing the response from the materials passing through it. Different materials have unique electromagnetic signatures, allowing the system to identify and sort them accordingly. By applying principles of electromagnetism, such as eddy currents and magnetic fields, the system can accurately and rapidly separate materials based on their conductivity and magnetic properties.
Some advantages of an induction sorting system include:
High sorting accuracy: The system can distinguish and separate materials with precision, ensuring high-quality sorting outcomes.
Speed and efficiency: Induction sorting systems operate at high speeds, enabling quick processing of large volumes of materials.
Non-contact sorting: The non-contact nature of the sorting process minimizes wear and tear on equipment, reducing maintenance requirements.
Flexibility: Induction sorting systems can handle a wide range of materials, including metals, plastics, and electronic waste, making them suitable for various recycling applications.
Environmentally friendly: By efficiently separating materials, induction sorting systems contribute to waste reduction, resource conservation, and the promotion of sustainable practices.
What types of materials can an induction sorting system handle?
An induction sorting system can handle a variety of materials, including:
Ferrous metals: such as iron and steel.
Non-ferrous metals: including aluminum, copper, brass, and stainless steel.
Non-metallic materials: such as plastics, glass, ceramics, and certain types of electronic waste.
Mixed materials: where the system can separate different components based on their electromagnetic properties.
Induction sorting systems are used in various industries, including waste management, recycling facilities, metal recovery plants, and electronic waste processing. They play a crucial role in sorting and separating recyclable materials, recovering valuable metals, and reducing the environmental impact of waste disposal.
Induction sorting systems contribute to sustainability by enabling efficient recycling and resource recovery. By accurately separating materials, these systems reduce the amount of waste sent to landfills, conserve natural resources, and promote the circular economy. They also support the reduction of greenhouse gas emissions and the preservation of valuable materials for future use.